Elf5 conditional knockout mice reveal its role as a master regulator in mammary alveolar development: failure of Stat5 activation and functional differentiation in the absence of Elf5.
about
Huntingtin Is Required for Epithelial Polarity through RAB11A-Mediated Apical Trafficking of PAR3-aPKCEpigenetic modifications unlock the milk protein gene loci during mouse mammary gland development and differentiationThe Stat6-regulated KRAB domain zinc finger protein Zfp157 regulates the balance of lineages in mammary glands and compensates for loss of Gata-3Development of mammary luminal progenitor cells is controlled by the transcription factor STAT5AΔNp63 knockout mice reveal its indispensable role as a master regulator of epithelial development and differentiationElf5 inhibits the epithelial–mesenchymal transition in mammary gland development and breast cancer metastasis by transcriptionally repressing Snail2E74-like factor inhibition induces reacquisition of hormone sensitiveness decreasing period circadian protein homolog 1 expression in prostate cancer cells.Genome-wide search identifies Ccnd2 as a direct transcriptional target of Elf5 in mouse mammary gland.RUNX2 correlates with subtype-specific breast cancer in a human tissue microarray, and ectopic expression of Runx2 perturbs differentiation in the mouse mammary gland.Cytokeratin expression during mouse embryonic and early postnatal mammary gland developmentMinireview: prolactin regulation of adult stem cellsGlucocorticoid receptor regulates overlapping and differential gene subsets in developing and adult skinThe antiproliferative effects of progestins in T47D breast cancer cells are tempered by progestin induction of the ETS transcription factor Elf5.Foxa1 is essential for mammary duct formation.Tumorigenic WAP-T mouse mammary carcinoma cells: a model for a self-reproducing homeostatic cancer cell system.The bHLH/PAS transcription factor singleminded 2s promotes mammary gland lactogenic differentiationCleavage of Histone 3 by Cathepsin D in the involuting mammary gland.ELF5 suppresses estrogen sensitivity and underpins the acquisition of antiestrogen resistance in luminal breast cancer.Gene networks driving bovine mammary protein synthesis during the lactation cycle.RUNX1, a transcription factor mutated in breast cancer, controls the fate of ER-positive mammary luminal cells.From milk to malignancy: the role of mammary stem cells in development, pregnancy and breast cancer.Signal transducer and activator of transcription 5 as a key signaling pathway in normal mammary gland developmental biology and breast cancer.Constitutive activation of JAK2 in mammary epithelium elevates Stat5 signalling, promotes alveologenesis and resistance to cell death, and contributes to tumourigenesisAberrant activation of NF-κB signaling in mammary epithelium leads to abnormal growth and ductal carcinoma in situ.Paternal RLIM/Rnf12 is a survival factor for milk-producing alveolar cellsNHERF1/EBP50 controls lactation by establishing basal membrane polarity complexes with prolactin receptor.Enhancing mammary differentiation by overcoming lineage-specific epigenetic modification and signature gene expression of fibroblast-derived iPSCs.Revealing new candidate genes for reproductive traits in pigs: combining Bayesian GWAS and functional pathways.Elf5 - breast cancer's little helperThe transcriptional repressor Blimp1 is expressed in rare luminal progenitors and is essential for mammary gland development.Zinc Finger Homeodomain Factor Zfhx3 Is Essential for Mammary Lactogenic Differentiation by Maintaining Prolactin Signaling ActivityDietary soy effects on mammary gland development during the pubertal transition in nonhuman primates.STAT signaling in mammary gland differentiation, cell survival and tumorigenesisHistone Demethylase KDM6A Controls the Mammary Luminal Lineage through Enzyme-Independent Mechanisms.Normal mammary development and function in mice with Ift88 deleted in MMTV- and K14-Cre expressing cellsTranscription factor regulatory networks in mammary epithelial development and tumorigenesis.Crosstalk between breast cancer stem cells and metastatic niche: emerging molecular metastasis pathway?The spectrum of STAT functions in mammary gland developmentMolecular aspects of adipoepithelial transdifferentiation in mouse mammary gland.Endocrine hormones and local signals during the development of the mouse mammary gland.
P2860
Q27312162-299F0AF4-F28C-40E3-AD94-C1492A87719EQ27322605-63170EB3-5D3B-47DD-98D9-681A96A33405Q28505725-9F015076-517A-4839-A8AA-EF51B677DC50Q28585680-D9BE0A23-7F80-4E85-990E-2E17C1C52CAEQ28587251-3DA9E23A-CDAA-4BD7-91E4-74C32038868AQ29042375-18B27434-DB0D-4C36-8A63-971BDA9BCC01Q30371371-324C1883-E0CC-4EED-940B-4293A04F41F7Q30989290-483F1EE3-0B9E-4E03-9A9C-9A79EBDEE94CQ33555996-7E2F1E45-089C-4DAA-9908-FF3FD5E2A7F5Q33596447-83A225A2-76E2-49EE-82F3-1F606C76A78CQ33631708-C6E0942D-0932-4C19-9134-97758621EA34Q33637198-A229B245-4948-4EC7-BFCF-CFC80522DB66Q33637475-D529FA53-0B98-4D74-835C-3E81055E71DFQ33641744-299C49EC-5795-456E-BABF-15D06458231EQ33668830-A3A897DE-674F-468A-9FE9-DB23D4DBEBC3Q33710892-DD3CEDE4-A6B3-4028-B58F-D2714B217D75Q33940225-49EA7C4A-6BF3-4A28-B87A-900E0A98FA22Q34539617-F5585F13-EE3C-4D18-ACDF-22729B5E993CQ35055810-2107D02D-D3E5-4A9C-9DAA-6099711647A9Q35240492-6EDE3856-1298-43A5-B3FF-C938B694F55BQ35348210-C7B9A876-24F5-4C93-A005-45D6BB5056F9Q35683515-17E86BB6-283A-42D0-9F74-CA2433967958Q35737909-A15CF484-0F03-4A95-A23E-3ED4644F6915Q35794436-2FD450D2-4C41-48F0-A8A2-669AD7F8475BQ35929384-6F4E819B-5F2E-468D-ABAE-6F826918068CQ36288731-19E6BA61-8647-4FFF-9C88-5AB1E45D544AQ36291965-EE83063E-6917-4AC6-B967-65D7CFF7B516Q36529977-12AB00BB-4B0F-425B-B23B-2914511D2E80Q36903307-273A4CA3-B74A-43BE-9DE5-9E67F2C1ACD0Q36921155-5AB1CD30-5FB2-449C-91D0-4A72D1117EC7Q37066490-C737306A-BFA0-4B7A-915F-776501BC0F90Q37079722-3C32C7DD-2DB9-4E23-BE25-63FB00261B7DQ37107328-627460E2-B2AE-4E87-A303-C6314F1FE946Q37141710-CEEEE89D-5F4B-4523-9C63-FD37BF175AFAQ37616826-6472497B-6288-4897-A63C-B92294CBA36AQ37720399-DB9F16F6-4EE0-43E5-9C48-C63935885CB3Q38107895-C7F3C023-EC9D-48D0-AAB0-867D5A5C825EQ38140889-A1203CFC-EC96-4CE0-88AA-81822F383D96Q38306592-B4E5444F-2B58-455D-855C-D42240113D2AQ38341899-15683D73-C167-412E-81F9-89D4D996D544
P2860
Elf5 conditional knockout mice reveal its role as a master regulator in mammary alveolar development: failure of Stat5 activation and functional differentiation in the absence of Elf5.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Elf5 conditional knockout mice ...... iation in the absence of Elf5.
@en
type
label
Elf5 conditional knockout mice ...... iation in the absence of Elf5.
@en
prefLabel
Elf5 conditional knockout mice ...... iation in the absence of Elf5.
@en
P2093
P1476
Elf5 conditional knockout mice ...... iation in the absence of Elf5.
@en
P2093
Rosalba Escamilla-Hernandez
Rumela Chakrabarti
Satrajit Sinha
Yeon Sook Choi
P304
P356
10.1016/J.YDBIO.2009.02.032
P407
P577
2009-03-06T00:00:00Z